WO2015064263A1 - Centrifugal projector - Google Patents
Centrifugal projector Download PDFInfo
- Publication number
- WO2015064263A1 WO2015064263A1 PCT/JP2014/075726 JP2014075726W WO2015064263A1 WO 2015064263 A1 WO2015064263 A1 WO 2015064263A1 JP 2014075726 W JP2014075726 W JP 2014075726W WO 2015064263 A1 WO2015064263 A1 WO 2015064263A1
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- WO
- WIPO (PCT)
- Prior art keywords
- projection
- blade
- rectangular
- projection material
- centrifugal projector
- Prior art date
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- 239000000463 material Substances 0.000 claims abstract description 178
- 238000003756 stirring Methods 0.000 claims abstract description 6
- 238000003780 insertion Methods 0.000 claims description 7
- 230000037431 insertion Effects 0.000 claims description 7
- 241001290864 Schoenoplectus Species 0.000 claims description 3
- 230000004323 axial length Effects 0.000 claims 1
- 238000012545 processing Methods 0.000 description 26
- 230000008878 coupling Effects 0.000 description 22
- 238000010168 coupling process Methods 0.000 description 22
- 238000005859 coupling reaction Methods 0.000 description 22
- 230000000694 effects Effects 0.000 description 18
- 238000009826 distribution Methods 0.000 description 14
- 238000000034 method Methods 0.000 description 14
- 239000012141 concentrate Substances 0.000 description 13
- 230000001133 acceleration Effects 0.000 description 11
- 230000000052 comparative effect Effects 0.000 description 10
- 230000008901 benefit Effects 0.000 description 7
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- 239000006185 dispersion Substances 0.000 description 6
- 230000002195 synergetic effect Effects 0.000 description 5
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- 238000012423 maintenance Methods 0.000 description 2
- 238000004519 manufacturing process Methods 0.000 description 2
- 230000002093 peripheral effect Effects 0.000 description 2
- 238000003786 synthesis reaction Methods 0.000 description 2
- 238000005299 abrasion Methods 0.000 description 1
- 238000013459 approach Methods 0.000 description 1
- 238000005422 blasting Methods 0.000 description 1
- 230000000903 blocking effect Effects 0.000 description 1
- 238000007599 discharging Methods 0.000 description 1
- 230000001747 exhibiting effect Effects 0.000 description 1
- 230000002349 favourable effect Effects 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000001151 other effect Effects 0.000 description 1
- 230000009467 reduction Effects 0.000 description 1
- 238000005480 shot peening Methods 0.000 description 1
- 238000003892 spreading Methods 0.000 description 1
- 230000007480 spreading Effects 0.000 description 1
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Images
Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24C—ABRASIVE OR RELATED BLASTING WITH PARTICULATE MATERIAL
- B24C5/00—Devices or accessories for generating abrasive blasts
- B24C5/06—Impeller wheels; Rotor blades therefor
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24C—ABRASIVE OR RELATED BLASTING WITH PARTICULATE MATERIAL
- B24C5/00—Devices or accessories for generating abrasive blasts
- B24C5/06—Impeller wheels; Rotor blades therefor
- B24C5/062—Rotor blades or vanes; Locking means therefor
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24C—ABRASIVE OR RELATED BLASTING WITH PARTICULATE MATERIAL
- B24C5/00—Devices or accessories for generating abrasive blasts
- B24C5/06—Impeller wheels; Rotor blades therefor
- B24C5/064—One-piece wheels; Integral impeller units, e.g. made by casting
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24C—ABRASIVE OR RELATED BLASTING WITH PARTICULATE MATERIAL
- B24C5/00—Devices or accessories for generating abrasive blasts
- B24C5/06—Impeller wheels; Rotor blades therefor
- B24C5/066—Housings; Accessories therefor, e.g. liners
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24C—ABRASIVE OR RELATED BLASTING WITH PARTICULATE MATERIAL
- B24C5/00—Devices or accessories for generating abrasive blasts
- B24C5/06—Impeller wheels; Rotor blades therefor
- B24C5/068—Transferring the abrasive particles from the feeding means onto the propeller blades, e.g. using central impellers
Definitions
- the present invention relates to a centrifugal projector that projects a projection material onto a workpiece, and a blade used in the centrifugal projector.
- centrifugal projectors and nozzle projectors are known as projectors used for shot blasting, shot peening and the like.
- a centrifugal projector is a device that uses centrifugal force.
- a nozzle projector is a device that uses air pressure. The nozzle projector is efficient when the width of the projection range is narrow, but is not suitable when the projection range is wide.
- the centrifugal projector is efficient when the projection range is wide, but when the projection range is narrow, the efficiency is not low. That is, in the centrifugal projector, it is difficult to concentrate the projection pattern and increase the projection efficiency.
- the “projection pattern” means a distribution of how much of the total projection amount the projection material projected toward the product (processed product) hits at each position.
- the “projection pattern” may mean what is shown in a 360-degree range as to what percentage of the total projection amount is projected at a predetermined angle position in the circumferential direction around the rotation axis.
- the description related to FIG. 13 means the former, but the other parts mean both the former and the latter.
- the centrifugal projector has better acceleration efficiency than the nozzle projector, it is desired to increase the projection efficiency by concentrating the projection pattern with the centrifugal projector.
- An object of the present invention is to provide a centrifugal projector that can increase the projection efficiency by making the projection pattern of the projection material appropriate.
- the present invention is a centrifugal projector that projects a projection material toward an article to be processed, and includes a side plate, a plurality of blades attached to the side plate, and a radially inner side of the side plate.
- a control gauge that discharges the projection material between the blades through the opening, a distributor that is provided inside the control gauge in the radial direction, supplies the control material to the control gauge by stirring, a side plate, and a plurality of side plates.
- the control cage has two or more square or triangular opening windows, or all or a part of two or more square or triangular opening windows overlap each other. With an integrated one opening windows was Te.
- the blade is formed so as to be inclined so that the outer side in the radial direction is located on the rear side in the rotational direction as compared with the inner side in the radial direction. Can do.
- control cage has two or more square or triangular opening windows, or all or a part of two or more square or triangular opening windows are overlapped and integrated. Since it has an aperture window, it can be adjusted to a projection pattern suitable for the product to be processed, and the projection efficiency can be increased, so that the projection material that does not hit the processing unevenness and the product to be processed can be reduced. The total projection amount can be reduced.
- the opening window in the control gauge is a rectangular or parallelogram square opening window.
- the blade includes a projection surface for projecting the projection material, and the projection surface has a first portion on the radially inner side and a second portion on the radially outer side, The portion is formed to be inclined so that the radially outer side is located on the rear side in the rotational direction compared to the radially inner side, and the second portion is rotated by an imaginary line extending the first portion radially outward. It is formed so as to be located on the front side in the direction.
- the blade is formed with a blade projection part on which the projection surface for projecting the projection material is formed, and the blade projection part has a thickness larger than that of the blade projection part at both end edges of the blade projection part.
- a mounting portion provided integrally with the blade, and at least the outer portion of the mounting portion of the blade is formed in a straight shape in a plane perpendicular to the rotation axis direction of the blade.
- the second portion of the blade is formed so that a virtual line connecting the rotation center of the blade and the radially outer end of the second portion coincides with the normal line.
- the radially inner end of the blade projecting portion of the blade is tapered toward the radially inner side, and each of the radially inner ends between the blades rotates. It becomes a guide part for guiding the projection material between the blades.
- the attachment portion of the blade has an engagement portion formed so that a plane perpendicular to the rotation axis direction of the blade in the radially inner portion protrudes from the straight shape.
- the blade projection portion of the blade includes a ridge formed on the projection back surface opposite to the projection surface, and a curved surface formed between the ridge and the radially inner end.
- the control cage is provided with an insertion opening through which the distributor can be inserted from the side opposite to the rotating shaft side, and covers the radially outer portion of the distributor on the rotating shaft side.
- a cover portion is provided, and is further disposed on the opposite side of the rotation axis of the control cage to supply the projection material to the distributor, and after the distributor is disposed radially inward of the control cage, And an auxiliary bracket that is fixed between the control cages, thereby closing the gap between the introduction portion and the control cage and preventing the projection material from being discharged from the gap to the outside.
- the control cage has two rectangular opening windows, or has one opening window in which two rectangular opening windows are partially overlapped and integrated.
- the rectangles are displaced in the circumferential direction and the axial direction of the control gauge, and are arranged obliquely when viewed from the side of the control gauge.
- control gauge preferably has one opening window in which three squares are partially overlapped and integrated, and the opening window is displaced in the circumferential direction and the axial direction of the control gauge.
- a first rectangular portion, a second rectangular portion, and a parallelogram portion provided between the first rectangular portion and the second rectangular portion, which are arranged obliquely when viewed from the side of the control cage.
- the control cage has one opening window in which four or more squares are partially overlapped and integrated, and the opening window is positioned in the circumferential direction and the axial direction of the control gauge. From the first rectangular portion, the second rectangular portion, and a plurality of rectangular portions provided between the first rectangular portion and the second rectangular portion. The rectangular portions constituting the rectangular portion groups are formed such that the length in the axial direction is shorter than that of the first rectangular portion and the second rectangular portion.
- the present invention is a centrifugal projector that projects a projection material toward an object to be processed, and is provided on a side plate, a plurality of blades attached to the side plate, and radially inward of the side plate, and is projected from the opening.
- a control gauge that discharges the material between the blades, a distributor installed in the radial direction of the control gauge, that stirs the projection material and supplies it to the control gauge, a side plate, a plurality of blades, and a distributor.
- the blade is formed so as to be inclined such that its radially outer side is located on the rear side of the rotating direction compared to its radially inner side, and the control cage has a parallelogram-shaped opening.
- the parallelogram of this open window has a circumferential side and an axial direction shifted from each other in the circumferential direction, and the sides of the parallelogram are offset. It is a parallelogram arranged in the obliquely viewed from the side of Rukeji.
- the blade includes a projection surface for projecting the projection material, and the projection surface has a first portion on the radially inner side and a second portion on the radially outer side, The portion is formed to be inclined so that the radially outer side is located on the rear side in the rotational direction compared to the radially inner side, and the second portion is rotated by an imaginary line extending the first portion radially outward. It is formed so as to be located on the front side in the direction.
- the present invention realizes that the projection pattern of the projection material is concentrated and adjusted so as to be a projection pattern suitable for the product to be processed, thereby improving the projection efficiency. That is, it is possible to reduce the projection material that does not hit the processing unevenness or the product to be processed, and to reduce the total projection amount of the projection material.
- FIG. 4 is a perspective view of the blade of FIG. 3.
- (A) to (d) are perspective views of the blades from different directions.
- FIG. 3 is an exploded view showing main parts of the centrifugal projector shown in FIG. 2.
- FIG. 2 is a diagram partially illustrating a main part of the centrifugal projector of FIG. 1.
- A is a sectional view showing a blade, a side plate unit, and a distributor that are driven to rotate
- (b) is a sectional view of a liner
- (c) is a sectional view of a lid
- (d) is a sectional view of a main body case. It is sectional drawing. It is a figure for demonstrating the advantage that the 1st part of a braid
- (A)-(g) is a figure which shows the behavior of the projection material by the backward inclination blade by this invention
- (h)-(n) is the behavior of the projection material by the conventional forward inclination blade for comparison with this.
- FIG. It is a figure which shows the other example of the braid
- (A) is a front view of a blade
- (b) is a left side view
- (c) is a rear view
- (d) is a sectional view taken along line S3-S3 shown in (a).
- (E) is a plan view and (f) is a bottom view.
- blade of FIG. (A) to (d) are perspective views of the blades from different directions.
- FIG. 4 is a side view of a control cage having a single open window
- (d) is a side view of a control cage having a parallelogram opening window
- (e) and (f) are three or more squares.
- FIG. 3 is a side view of a control cage having one opening window in which a part of the control cages are integrated
- (g) to (n) are diagrams showing projection distributions and the like of the respective control cages. It is a figure which shows distribution (projection pattern) of the projection ratio for every projection position by Experimental example 1, 2 of this invention, and a comparative example.
- a centrifugal projector 1 includes a plurality of blades 3 and rotates the blades 3 to project a projection material 2 by centrifugal force (hereinafter “projection material”). Is also called “shot”).
- the projection surface 3 a of each blade 3 is a projection surface located on the radially outer side of the first portion 3 b and the first portion 3 b constituting the radially inner portion of the projection surface 3 a. And a second portion 3c constituting the outer portion of 3a.
- the second portion 3c of the blade 3 is provided integrally with the first portion 3b via a bent portion or a curved portion with respect to the first portion 3b.
- the first portion 3b and the second portion 3c are provided via the curved portion 3d.
- the shape described here is a shape in a cross section orthogonal to the rotation axis of the blade 3.
- the first portion 3b of the blade 3 is formed such that the outer side 3e is inclined to the rear side in the rotational direction R1 as compared to the inner side 3f.
- the rotation direction R1 is the rotation direction of the blade 3 and a side plate unit 10 described later.
- the first portion 3b of the blade 3 is inclined with respect to a line (normal line) including the rotation center.
- a curved shape may be sufficient.
- the straight line is more advantageous in consideration of the shot concentration function and the production described later.
- the second portion 3c of the blade 3 is formed so as to be positioned on the front side in the rotation direction R1 with respect to an imaginary line L1 obtained by extending the first portion 3b outward.
- the second portion 3c of the blade 3 is formed with a curved shape, but may be formed in a straight line. However, the curved shape is advantageous in terms of the shot acceleration function and production described later. Further, in the blade 3, the curved portion 3d is integrally formed with the curved shape of the second portion 3c, but is not limited thereto.
- the inclination angle ⁇ 1 of the first portion 3b of the blade 3 is 30 to 50 degrees as will be described later (see FIG. 5).
- the inclination angle means an angle with respect to the plane P1 including the rotation axis of the blade 3.
- O1 indicates the rotation center (the rotation axis of the blade 3).
- the blade 3 can concentrate the projection pattern of the projection material without slowing down the speed of the projection material by the first portion 3b and the second portion 3c, and can increase the projection efficiency.
- each blade 3 includes a blade projection part 3g having a projection surface 3a for projecting a projection material, a pair of attachment parts 3h located at both end edges of the blade projection part 3g,
- the attachment portion 3h is provided at each of both edge portions of the blade projection portion 3g in the first direction D1.
- the attachment portion 3h is formed to be larger in thickness (thickness in the thickness direction of the blade projection portion 3g (for example, the second direction D2)) than the blade projection portion 3g, and is integrated with the blade projection portion 3g ( (Refer FIG.3 (d) and FIG.3 (e)).
- the second direction D2 is a direction orthogonal to the first direction D1 in the top view (plan view) shown in FIG.
- the attachment portion 3h of the blade 3 is formed such that at least the plane of the outer portion 3i perpendicular to the rotation axis direction of the blade 3 has a straight shape. That is, the blade projecting portion 3g has a curved shape or a bent shape as described above, but most of the outer portion of the mounting portion 3h (most portion other than the inner portion described later) has a curved shape or a bent shape. There is no straight shape.
- reference numeral 3h3 indicates a straight portion of the attachment portion 3h.
- the attachment portion 3h of the blade 3 has a straight shape, attachment work to the side plate unit 10 described later and removal work from the side plate unit 10 are facilitated. For this reason, in the blade 3, the blade projection part 3g (blade 3) provided with the projection surface 3a which has the 1st part 3b and the 2nd part 3c which raise the above projection efficiency is replaced with the side plate unit 10. Easy to do.
- the attachment portion 3h of the blade 3 has an engagement portion 3j in the radially inner portion.
- the engaging portion 3j is formed so that the shape in a plane orthogonal to the rotation axis direction of the blade 3 protrudes from the straight shape described above (see FIGS. 3B and 3D).
- a plurality of contact portions 3k are provided outside the pair of attachment portions 3h in the D1 direction.
- the contact portion 3k is formed so as to protrude from the outer side surface 3m of the attachment portion 3h. In a state where the blade is attached to the side plate unit 10, the contact portion 3 k comes into contact with the groove portion (guide groove portion 13) provided on the side plate 11 and is attached at an appropriate position.
- the blade 3 Since the blade 3 has the engaging portion 3j, the blade 3 can be accurately attached to a predetermined position of the side plate unit 10 and can exhibit good projection performance. Further, when the blade 3 is attached to the side plate unit 10, the outer surface 3m of the attachment portion 3h of the blade 3 is not in direct contact with the groove portion of the side plate 11, but the contact portion 3k is in contact with the groove portion. It can be installed smoothly.
- the blade projecting portion 3g and the mounting portion 3h are formed such that the distance L3 between the inner surfaces 3h1 facing each other of the pair of mounting portions 3h gradually decreases toward the outer side compared to the inner side in the radial direction. That is, the inner surfaces 3h1 facing each other of the pair of attachment portions 3h are slightly inclined. That is, the inner surface 3h1 is inclined with respect to each other, and is also inclined with respect to the outer surface 3h2.
- the outer surfaces 3h2 of the pair of attachment portions 3h are substantially parallel.
- the outer surface 3h2 is parallel to the main surface of the side plate 11.
- the distance L3 between the edge parts 3g1 that is, the distance L3 in the first direction D1 of the edge parts 3g1 is directed outward as compared to the inner side in the radial direction. It is formed so as to become gradually smaller.
- the blade 3 since the blade 3 has the blade projection portion 3g and the attachment portion 3h, the projection material group is prevented from spreading in the first direction D1 toward the outside in the radial direction in the centrifugal projector 1. That is, the blade 3 contributes to concentrating the projection pattern of the projection material, has a good compatibility with the shape of the first portion 3b and the second portion 3c described above, and can concentrate the projection pattern with a synergistic effect.
- the inner surface 3h1 and the end edge portions 3g1 are not limited to the inclination, but have other effects even if they are parallel.
- the second part 3c of the blade 3 is formed so that a virtual line connecting the rotation center of the blade 3 and a point near the outer end of the second part 3c coincides with the normal line.
- an imaginary line L2 connecting the rotation center of the blade 3 and the outer end 3n of the second portion 3c is formed so as to coincide with the normal line (see FIG. 5A and the like).
- the second portion 3c of the blade 3 having the above-described configuration is such that the projection speed of the projection material is substantially equal to the projection speed in the case of having a flat projection surface formed so as to coincide with the normal line. Is possible. That is, the blade 3 can concentrate the projection pattern without reducing the projection speed, and can increase the projection efficiency.
- the blade 3 is formed so that the imaginary line L2 coincides with the normal line in order to make the projection speed almost equal to the projection speed in the case of having a flat projection surface.
- the blade 3 is not limited to this. Absent. That is, from the viewpoint of exhibiting an acceleration function, in the blade 3, the virtual line L2 may be inclined to the front side in the rotational direction from the normal line. In other words, the imaginary line connecting the rotation center O1 of the blade 3 and the inner side in the radial direction from the outer end of the second portion 3c may be formed so as to coincide with the normal line.
- the inner end 3p of the blade projection part 3g is tapered toward the inner side, and is guided between the rotating blades 3 by increasing the distance between the inner ends 3p between the blades 3. It functions as a guide part that increases the amount of the projection material. That is, the end portion 3p as the guide portion increases the amount of the projection material guided between the blades 3. In other words, when the end portion is not formed in a tapered shape (in the case indicated by a broken line B1 in FIGS. 5 (a) and 5 (b)), the projection material that has collided with the portion bounces back, but in a tapered shape. When the formed end portion 3p is employed, there is an effect that the end portion of the blade enters the inside without being obstructed, and the amount of the projection material guided between the blades 3 is increased.
- the present inventors have repeated simulations and experiments.
- the inner end of the blade projection part 3g is not formed in a tapered shape and is thick (FIGS. 5A and 5B).
- a broken line B1 it was found that the projection material bounces back toward the center at that portion (the portion of the inner end where the thickness is thick).
- the inner end portion 3p of the blade projection portion 3g is formed in a tapered shape, whereby the distance L4 between the inner end portions 3p between the blades 3 can be increased. That is, the distance L4 can be made larger than the distance L5 between the end portions as indicated by the broken line B1.
- a broken line B1 indicates a comparative example with respect to the tapered shape. As shown by the distance L4, the amount of projection material guided between the rotating blades 3 can be increased by the tapered shape. At the same time, the rebound of the projection material toward the center can be reduced. Therefore, the projection pattern can be improved.
- the blade projection unit 3g has a raised portion 3r formed on the projection back surface 3q provided on the opposite side of the projection surface 3a.
- the blade projection part 3g has a curved surface 3t provided between the raised part 3r and the inner end 3s of the blade projection part 3g.
- a curved surface 3t is formed from the end portion 3s through the taper forming portion 3u and the flat surface portion 3v.
- the taper forming portion 3u forms the above-described tapered end portion 3p together with the above-described first portion 3b.
- a curved surface 3x is formed between the raised portion 3r and the outer end 3w of the blade projection portion 3g.
- the coupling member 12 of the side plate unit 10 can be disposed on the curved surface 3x.
- the taper forming portion 3u is formed in a planar shape here, but may be formed in a curved shape, or may be formed as a part of the curved surface 3t without passing through the planar portion 3v.
- the above-described curved surface 3t on the radially inner side of the blade 3 enables the projection material 2 to be smoothly guided to the projection surface 3a side of the next blade 3 (the blade 3 that rotates next).
- the coupling member (stay bolt) 12 can be disposed on the back of the raised portion 3r formed with the curved surface 3t, and the projection material hitting the coupling member (stay bolt) 12 is the center (the rotation center of the blade 3). )
- the centrifugal projector 1 including the blade 3 and the side plate unit 10 can improve the projection pattern.
- the centrifugal projector 1 includes a side plate unit 10 for attaching the plurality of blades 3 described above.
- the side plate unit 10 includes a pair of side plates 11 and a coupling member 12 that couples the pair of side plates 11 with a predetermined distance.
- the coupling member 12 is fixed in a hole 11 a formed in the pair of side plates 11. For example, it is fixed by caulking or screwing.
- the coupling member 12 is a member called a stay bolt, for example.
- Guide grooves 13 are formed on the surfaces 11b of the pair of side plates 11 facing each other.
- the side plate 11 is a donut-shaped (annular) member, and a tapered portion 11c is provided on the inner side of the surfaces 11b facing each other.
- the guide groove portion 13 is formed so as to be inclined so that the outer side 13a is located on the rear side in the rotational direction as compared with the inner side 13b.
- the shape described here is a shape in a cross section orthogonal to the rotation axis (rotation center) of the blade 3 and the side plate unit 10.
- the guide groove portion 13 corresponds to the attachment portion 3 h of the blade 3, and since the attachment portion 3 h of the blade 3 is slid and inserted, the blade 3 is attached to the side plate unit 10.
- the side plate unit 10 as described above makes it possible to reliably attach the blade 3 capable of concentrating the projection pattern as described above in a state in which the performance is exhibited. Further, the blade 3 can be easily replaced.
- the guide groove 13 of the side plate 11 of the side plate unit 10 has at least an outer portion 13c formed in a straight shape. Further, the guide groove portion 13 has an inner portion 13d formed wider than the straight shape. The inner portion 13d of the guide groove 13 engages with the engagement portion 3j of the attachment portion 3h of the blade 3 to regulate the position of the blade 3 (attachment portion 3h). Further, the outer portion 13c indicates a portion of the guide groove portion 13 that is a straight shape. The straight portion 13c of the guide groove 13 corresponds to the straight portion 3h3 of the attachment portion 3h. And the virtual center line L6 of this straight-shaped part 13c is inclined backward in the rotational direction (see FIG. 6). Since the inclination angle ⁇ 2 is set to an angle close to the inclination angle of the blade, 30 to 50 degrees has a good effect.
- the inclination angle means an angle with respect to the plane P2 including the rotation axis of the blade 3.
- the blade 3 can be easily replaced. That is, as described above, the blade 3 that realizes the projection material concentration function and acceleration function can be appropriately attached. That is, the first surface 3b and the second portion 3c are formed on the projection surface 3a of the blade projection portion 3g as described above, but the attachment portion 3h and the guide groove portion 13 have a straight shape. Can be installed and removed easily and smoothly.
- the blade 3 can be fixed at an appropriate position.
- the number of connecting members 12 of the side plate unit 10 is the same as the number of blades 3.
- Each coupling member 12 is disposed between the blades 3. At the same time, it is arranged at a position closer to the projection rear surface side 3q than an intermediate position between the projection surface 3a of the adjacent blade 3 and the projection rear surface 3q of the adjacent blade 3.
- the intermediate positions are calculated, for example, at the intersections K1 and K2 between the virtual arc L7 passing through the center position of the coupling member 12 with O1 as the center and the above-described virtual line L6 (see FIG. 6).
- a point K3 located on the arc L7 and in the middle of the intersections K1 and K2 may be set as an “intermediate position”.
- the coupling member 12 is disposed on the projection rear surface 3q side from the intermediate position K3.
- the “intermediate position” is not limited to this, and the intersection point of the arc L7 and the projection surface 3a and the intersection point of the arc L7 and the projection back surface 3q are calculated and located on the arc L7 and in the middle of the intersection point. A point may be used.
- a virtual line connected so as to be in contact with the vicinity of the top of the raised portion 3r is defined as a virtual line L8.
- the coupling member 12 is disposed at a position close to T on the projection back surface 3q side of the blade 3 so that at least a part of the cross section of the coupling member 12 is positioned on the projection back surface 3q side of the blade 3.
- the coupling member 12 is connected to the blade 3 so that the cross-sectional area of the cross section of the coupling member 12 on the projection back surface 3q side of the blade 3 is more than half. Since it is arranged at a position close to the projection back surface 3q side, the projection pattern can be further improved.
- the side plate unit 10 configured as described above prevents the projection material hitting the coupling member (stay bolt) 12 from returning to the center side. Therefore, the centrifugal projector 1 including the blade 3 and the side plate unit 10 can improve the projection pattern.
- the number of the blades 3 described above is six. This can increase the distance between the inner end portions between the blades compared to the case where eight or twelve blades are provided, and can reduce the rebound of the projection material toward the center at the end portions of the blades. That is, the projection pattern can be improved. It is just right to consider the same number of connecting members (stay bolts). That is, the number of coupling members 12 is the same as the number of blades 3 as described above, but if the number of coupling members 12 increases too much, there is an increased possibility that the projection material bounced back by the coupling members will return to the center side. On the other hand, when six blades and coupling members are provided, the influence of the coupling members can be reduced and the projection pattern can be improved.
- the number of blades is appropriately 6 to 8, and more preferably 6 in the present invention.
- the guide groove 13 of the side plate 11 is provided with a recess 16 for attaching a bolt 15 for fixing the side plate unit 10 to the rotational drive side.
- the rotation drive side is a hub 18 fixed to the rotation shaft 14 rotated by the rotation drive unit (see FIGS. 2 and 7).
- An insertion hole 17 through which the bolt 15 is inserted is formed in the recess 16.
- the pair of side plates 11 has a thick portion 11d formed on the inner peripheral portion of the opposite surface (outer surface) of the surfaces facing each other, and the insertion hole 17 is provided so as to be positioned in the thick portion 11d. Yes.
- the side plate unit 10 can be fixed to and removed from the rotating shaft 14 side (hub 18) from the side plate unit 10 side, that is, the main body case 20 side. . Since the concave portion 16 for attaching the bolt 15 is provided in the guide groove portion 13, the head 15 a of the bolt 15 is attached to the attachment portion of the blade 3 after the blade 3 is attached to the guide groove portion 13 of the side plate unit 10. Hidden in 3h. Thereby, the head 15a of the bolt 15 is not worn. Further, the side plate unit 10 can be fixed to and removed from the rotation drive side (the rotary shaft 14 and the hub 18) from the side plate unit 10 side.
- the side plate unit 10 is often attached to the hub 18 on the rotational drive side from the hub 18 side (rotary shaft side) in the past, which is inconvenient.
- the side plate unit 10 can be fixed to the rotational drive side from the side plate unit 10 side, the mounting operation is facilitated and the convenience is improved.
- the pair of side plates 11 are formed to be plane-symmetric with respect to a virtual plane P3 orthogonal to the coupling member 12 (see FIG. 6B). That is, the concave portion 16 and the insertion hole 17 for mounting the bolt 15 described above are provided in both the pair of side plates 11. Then, by changing the mounting side of the side plate 11 to the hub 18, the direction of the guide groove 13 becomes the opposite side, and the direction of the blade 3 becomes the opposite side. Thereby, it becomes possible to reversely rotate the rotating shaft 14 and the blade 3. Thereby, the same product (processed product) can be supplied to each user who desires clockwise rotation and counterclockwise rotation, that is, versatility can be improved.
- the centrifugal projector 1 includes a control cage 21 and a distributor 22. Further, the centrifugal projector 1 includes a main body case 20, a bearing unit 23, a hub 18, a liner 26, a lid 27, a center plate 28, a front cover 29, a bracket 30, a seal 31, an introduction cylinder (also referred to as a hopper) 32, and an introduction cylinder. A presser 33 and the like are provided.
- the control cage 21 has a function of controlling the projection direction and distribution shape of the projection material.
- the side plate 11 constituting the side plate unit 10 has a donut-shaped (annular) cross section.
- the control cage 21 is disposed inside the side plate 11 (inside the inner diameter of the annular shape) and is fixed.
- the control cage 21 is provided with an opening window 21a. The projection material is discharged toward the blade 3 from the opening window 21a.
- the bracket 30 functions as an auxiliary bracket that assists the control cage 21. That is, the control cage 21 has an insertion opening 21b into which the distributor 22 can be inserted from the opposite side (introduction cylinder 32 side) to the rotation axis on the opposite side (introduction cylinder 32 side) from the rotation axis. Further, the control cage 21 has a cover portion 21c that covers the outer side portion in the radial direction on the rotary shaft side of the distributor 22 on the rotary shaft side. An opening 21d is provided inside the cover portion 21c so that a bolt 22c for fixing the distributor 22 to the center plate 28 and the hub 18 can be attached. The bracket 30 is fixed to the control cage 21 side together with the introduction cylinder 32 after the distributor 22 is attached, so that the gap between the control cage 21 and the introduction cylinder 32 is closed and the projection material 2 is exposed to the outside from the gap. To be released.
- control cage 21 and the bracket 30 can be inserted from the introduction tube 32 side (the side opposite to the rotating shaft 14) when the distributor 22 is disposed in the control cage 21.
- the control cage 21 can be provided with a cover portion 21c that covers the outer side portion of the distributor 22 on the rotating shaft side and in the radial direction.
- the cover portion 21c makes it possible to reduce the gap between the distributor 22 and the control cage 21 on the rotating shaft side, thereby minimizing the leakage of the projection material from this gap. Projection efficiency can be improved.
- the control cage 21 and the bracket 30 greatly reduce the work time when the distributor 22 is replaced or maintained.
- the distributor 22 accelerates the projection material supplied from the introduction cylinder 32 by centrifugal force while stirring and supplies the projection material to the blade 3 side through the opening window 21a (opening portion) of the control cage 21.
- the distributor 22 is provided with openings at substantially equal intervals in the circumferential direction, for example.
- the distributor 22 is rotatable inside the control cage 21.
- a substantially triangular pyramidal projection 22a that forms a hole 22b for the mounting bolt 22c is formed inside the distributor 22.
- the rotary shaft 14 and the hub 18 are formed with a key groove, and are connected so as to be rotated together by a key (not shown).
- the bolt (connecting member) 22 d connects the center plate 28 and the hub 18.
- the bolt (connecting member) 22c connects the rotating shaft 14 and the distributor 22 with the center plate 28 interposed therebetween.
- the hub 18 has a function of transmitting the rotational force transmitted from the rotating shaft 14 to the side plate unit 10 and the blade 3.
- the center plate 28 is a plate member having a function of blocking the opening on the rotating shaft side of the side plate unit 10 and preventing leakage of the projection material.
- control cage 21 is arranged inside the side plate unit 10, and the distributor 22 is arranged inside the control cage 21.
- the blade 3, the side plate unit 10, the hub 18, the center plate 28, and the distributor 22 are rotationally driven by the rotary shaft 14 by having a member that transmits the rotational force as described above.
- the bearing unit 23 has a rotating shaft 14 at the center.
- the rotating shaft 14 is held by two bearings 25.
- a pulley for transmitting power from the motor with a belt and a hub 18 for transmitting to the side plate unit 10 are attached to the rotating shaft 14.
- the hub 18 has a function of connecting the rotary shaft 14 and the side plate 11 (side plate unit 10).
- the side plate unit 10 can be attached with six blades 3 and is rotated together with the blades 3. Since the blade 3 rotates while being attached to the side plate unit 10, it projects a projection material (shot).
- the centrifugal projector 1 has the blade 3 having the concentration performance (concentration performance of the projection material 2), the side plate 11 to which the blade 3 can be attached and detached, the control cage 21, and the distributor 22. It is possible to concentrate the projection pattern and increase the projection efficiency in a narrow projection range.
- the projection material is concentrated on the blade 3 having the concentration performance, and the concentrated projection material is discharged. At this time, since the projection material concentrated in the first portion 3b is released from the second portion 3c having a shot acceleration function, the projection efficiency is improved.
- the main body case 20 is for assembling each component.
- the liner 26 protects the main body case 20 from the projection material.
- the lid 27 opens and closes the upper opening 20 a of the main body case 20.
- the center plate 28 has a function of preventing the blade 3 from dropping and protecting the shaft end portion of the rotating shaft 14.
- the front cover 29 can be removed during maintenance.
- the bracket 30 is opened in a tapered shape, and supplies the projection material (shot) supplied from the introduction tube 32 to the inside of the distributor 22.
- the seal 31 prevents the projection material from leaking from the gap between the introduction tube 32 and the bracket 30.
- the introduction cylinder 32 supplies the projection material into the centrifugal projector 1.
- the introduction cylinder holder 33 fixes the introduction cylinder 32 to the main body of the centrifugal projector 1.
- a wear-resistant casting can be used for the introduction cylinder 32. In this case, the wear of the inner surface by the projection material can be reduced, and the replacement frequency can be reduced.
- a material having lower wear resistance than the wear-resistant casting may be used, but in order to prevent the flow of the projection material from being deteriorated due to wear on the inner surface, it is necessary to replace the components at an appropriate timing.
- the bearing unit 23 is fixed to the main body case 20 with bolts or the like.
- a liner 26 is attached in the circumferential direction with respect to the rotation shaft 14 on the inner surface of the main body case 20 in order to prevent abrasion due to the projection material.
- the hub 18 is inserted into the rotating shaft 14 of the bearing unit 23.
- the side plate 11 is fixed to the hub 18 with bolts 15 from the inner surface of the centrifugal projector 1.
- the pair of side plates 11 are fixed by a coupling member 12 in a state having a certain distance.
- the side plate unit 10 in which the pair of side plates 11 are coupled by the coupling member 12 is fixed to the hub 18.
- the blade 3 is inserted into the guide groove portion 13 of the pair of side plates 11 from the inside to the outside, and is fixed by the center plate 28. Since the force is exerted outward by the centrifugal force, the center plate 28 may not be fixed. At this time, since the engaging portion 3j of the blade 3 engages with the inner portion 13d of the guide groove portion 13, the position of the blade 3 is set to an appropriate position.
- the front cover 29 is fixed to the main body case 20 with bolts or the like.
- the center plate 28 is fixed to the hub 18 with bolts 15 while holding the inner diameter portion of the blade 3 at the outer peripheral portion. After inserting the control cage 21 into the side plate 11, the distributor 22 is inserted into the side plate 11, and the distributor 22 is fixed to the rotating shaft 14 with bolts 22 c.
- the position of the opening 21a is adjusted so that the projection material can be projected in an appropriate direction, and the control cage 21 is attached in the order of the bracket 30, the seal 31, and the introduction cylinder 32, and is fixed while being pressed by the introduction cylinder holder 33.
- the plurality of blades 3 are attached to the side plate 11 via a gap outside the control cage 21.
- a distributor 22 is provided inside the control cage 21 via a gap.
- the blade 3 and the side plate 11 and the distributor 22 are rotatable at the same rotation center O1.
- the first portion 3b of the blade 3 also functions as a shot receiving unit.
- the second portion 3c also functions as a shot acceleration unit.
- the projection method using the centrifugal projector 1 includes a shot dispersion and discharge process from the control cage 21, a shot concentration process on the blade 3, and a shot discharge process from the blade 3. That is, in the dispersion release process, the projection material is dispersedly released from the opening window 21 a of the control cage 21 toward the blade 3. In the concentration process, the dispersed and ejected projection material is concentrated on the blade 3. In the discharging step, the projection material concentrated on the blade is discharged from the blade 3.
- dispersed release means that the projection material is scattered and released separately. It is not emitted as a group of projection materials, but a large number of pieces are released separately. Further, “to concentrate the projection material” means to increase the density of a large number of projection materials released onto the blade 3 apart. “Release from the blade 3” means that the high-density projection material group is discharged from the blade 3 to the outside of the centrifugal projector 1. The blade 3 has a function of accelerating the projection material received from the control cage by centrifugal force.
- the movement of the projection material will be described together with the operation of the parts of the centrifugal projector 1.
- the distributor 22, the blade 3, the side plate unit 10 and the like are rotated.
- the projection material 2 is supplied into the distributor 22.
- the supplied projection material 2 is supplied to the gap between the control cage 21 and the distributor 22 through the opening of the rotated distributor 22 by centrifugal force.
- the supplied projection material 2 moves in the gap in the rotation direction.
- the projection material 2 moved in the gap jumps out from the opening window 21a of the control cage 21 to the outside.
- the projection material 2 that has jumped out of the opening window 21a is accelerated and concentrated in the first portion 3b that functions as a shot receiving portion, is further accelerated in the second portion 3c that functions as a shot acceleration portion, and is centrifugally applied from the outside of the blade 3. Projected.
- the blade 3 of the centrifugal projector 1 according to the above-described embodiment of the present invention will be described.
- the first portion is not inclined with respect to the plane P1, and the second portion is not provided. That is, the conventional blade has a projection surface having a substantially flat surface (the surface on the plane P1 shown in FIG. 5A), and the normal and the rotation axis are included in this surface.
- the projecting material exiting from the opening window of the control cage with a time difference is projected from the blade tip with the time difference. Therefore, it becomes a wide projection pattern.
- the blade 3 of the centrifugal projector 1 described above has the following advantages because the first portion 3b is inclined backward with respect to the plane P1.
- This advantage will be described together with the behavior of the projection material 2 with reference to FIGS. 9 (a) to 9 (g), the projection materials 2a to 2c are selected to show a part of the projection material 2 released in a large amount for easy understanding of the behavior (FIG. 9).
- the projection material 2c finally exiting from the opening window 21a first rides on the blade 3 and advances to the outer periphery of the blade while being accelerated.
- the projection material 2c that first rides on the blade 3 is present in the vicinity thereof.
- the last and intermediate projection materials 2c and 2b are accelerated, when the projection material 2a that first exits the opening window 21a gets on the blade, the last and intermediate projection materials 2c and 2b are in the vicinity thereof. Exists. Therefore, in the case of using the blade 3 described above, the projection material supplied from the opening window 21a of the control cage 21 with a time difference is projected from the blade tip in a state having almost no time difference. Can be narrowed.
- the blade 93 (comparative example) inclined forward with respect to the plane P1, contrary to the blade 3, is used.
- the behavior of the projection material 92 when used will be described with reference to FIGS.
- the dispersion area of the supplied projection material connecting the projection material 92 a that firstly exits from the opening window and the projection material 92 c that finally exits from the opening window is substantially parallel to the blade 93. .
- the projection material 92a that first exits from the opening window, the projection material 92b that exits the opening window between the first and last, and the projection material 92c that finally exits from the opening window ride on the blade 93 almost simultaneously.
- the projection pattern spreads for the time required for the projection material 92b to move on the blade 93 to the position of the projection material 92a.
- the configuration and merit of the first portion 3b of the blade 3 described above have been found by the present inventors by earnestly examining the movement of the projection material supplied to the blade and repeating simulation and experiment. is there.
- the inventors contrary to the first portion 3b, the inventors have also intensively studied the behavior of the blade inclined forward with respect to the plane P1, and compared these to determine the configuration as described above. It is.
- the present inventors can advantageously realize the merit of the second portion 3c and the appropriate range of the inclination angle ⁇ 1 described below and the number of the blades 3 described above by repeating simulation and experiment. In view of the fact that the blade is a consumable part, it can be mass-produced and made feasible.
- a blade having only a rearward inclined surface that concentrates the projection pattern can be used.
- the projection speed with respect to the rotational speed becomes lower as it leans backward, it is necessary to increase the rotational speed in order to increase the projection speed.
- the increase in the rotational speed causes problems such as an increase in power consumption and noise when the projection material is not projected. Therefore, a blade 3 in which the second portion 3c that substantially performs the blade projection is inclined forward relative to the first portion 3b that is the receiving portion by providing, for example, a bent portion outside the first portion 3b as the shot receiving portion.
- the inclination angle ⁇ 1 of the first portion 3b of the blade 3 will be described in more detail.
- the rearward tilt angle of the first portion 3b that is, the tilt angle ⁇ 1 with respect to the plane P1 is preferably 30 to 50 degrees.
- the projection pattern is concentrated by collecting the continuously supplied projection material in the first portion 3b. However, if the angle is less than 30 degrees, the time difference on the blade is shortened, and the distribution Low concentration. If the angle is larger than 50 degrees, the time difference becomes too large, and the phenomenon that the projection material on the blade near the base of the blade overtakes the projection material received at the tip of the blade and is projected first occurs, reducing the effect. .
- the above-described projection surface 3a is also a surface on which the projection material 2 described above moves.
- the projection back surface 3q is also a surface opposite to the surface on which the projection material 2 moves.
- the blade projection unit 3g has at least a portion sandwiched between the projection surface 3a and the projection back surface 3q.
- the attachment portion 3 h is a member for attaching and fixing the blade 3 to the side plate 11.
- the shapes of the attachment portion 3 h and the guide groove 13 are not limited to those described above, but the blade 3 can be mechanically attached to and detached from the side plate unit 10.
- the combination of the side plate unit 10 and the blade 3 is preferably fixed by centrifugal force as described above, for example.
- the centrifugal projector 1 configured as described above and the blade 3 used in the centrifugal projector 1 can concentrate the projection pattern of the projection material, and can increase the projection efficiency for a narrow projection range. That is, since the projection patterns are concentrated, the number of shots not hitting the product is reduced and the projection efficiency is improved when the product to be processed is small.
- the configurations of the centrifugal projector 1 and the blade 3 can be identified for the first time only by intensively examining the entire movement of the projection material supplied to each blade. In the conventional approach, it was considered to improve the acceleration characteristics by examining the motion of each projection material.
- This configuration (configuration of the centrifugal projector 1) makes it possible to concentrate the movement of the entire projection material and concentrate the projection pattern. Therefore, efficient projection can be realized.
- the above-described side plate unit 10 and the centrifugal projector 1 using the side plate unit 10 can concentrate the projection pattern of the projection material, increase the projection efficiency for a narrow projection range, and have the following effects. That is, the blade 3 having the above-described effects can be easily and reliably attached and replaced.
- the blade used in the centrifugal projector 1 according to the embodiment of the present invention is not limited to the blade 3 shown in FIGS. 3 and 4 described above. It suffices to have at least one of the configurations having the effects described above.
- the blade 7 shown in FIGS. 10 and 11 can also be used as a blade for the centrifugal projector 1.
- the blade 7 has substantially the same configuration and effects as the blade 3 except that the blade 3 does not have the raised portion 3r and the raised portion 3r, as compared with the blade 3 described above.
- Parts having similar configurations, functions, and effects are denoted by the same names and similar symbols (the symbols following “3” and “7” are common), and detailed description thereof is omitted.
- the projection surface 7a of the blade 7 is located on the radially inner side of the projection surface 7a and on the radially outer side of the first portion 7b.
- a second portion 7c which is a portion.
- the second portion 7c of the blade 7 is provided integrally with the first portion 7b via a bent portion or a curved portion with respect to the first portion 7b. In the example described here, it is provided via the curved portion 7d.
- the first portion 7b of the blade 7 is formed so as to be inclined so that its radially outer side is located behind the rotational direction R1 compared to its inner side, like the first portion 3b described above.
- the second portion 7c is formed so as to be positioned on the front side in the rotational direction with respect to an imaginary line that extends the first portion 7b outward.
- Each blade 7 has a blade projection part 7g having a projection surface 7a for projecting the projection material, and a pair of attachment parts 7h located at both end edges of the blade projection part 7g, like the blade 3 described above.
- the blade projection portion 7g has a curved shape or a bent shape, but most of the outer portion of the attachment portion 7h (most portion other than the inner portion described later) is a straight shape portion 7h3.
- the mounting part 7h of the blade 7 has an engaging part 7j on its inner part.
- the engaging portion 7j is formed so as to protrude from the straight shape described above.
- a plurality of contact portions 7k are provided outside the pair of attachment portions 7h.
- the contact portion 7k is formed so as to protrude from the outer surface 7m of the attachment portion 7h.
- the entire outer surface of the engaging portion 7j is a contact portion 7k.
- the blade projection part 7g and the attachment part 7h are formed such that the interval L9 between the inner surfaces 7h1 facing each other of the pair of attachment parts 7h gradually decreases toward the outside as compared to the inside (center side) in the radial direction.
- the relationship between the outer surface 7h2 of the mounting portion 7h and both edge portions 7g1 of the blade projection portion 7g is the same as that described for the blade 3 described above.
- the second portion 7c of the blade 7 is formed so that the imaginary line connecting the rotation center of the blade 7 and a point near the outer end of the second portion 7c coincides with the normal line, like the blade 3 described above. By doing so, the acceleration function of the above-mentioned projection material is exhibited.
- an imaginary line (similar to the imaginary line L2 shown in FIG. 5 using the blade 3) connecting the rotation center of the blade 7 and the outer end 7n of the second portion 7c is formed so as to coincide with the normal line. ing.
- the inner end 7p of the blade projecting portion 7g of the blade 7 is tapered toward the inner side in the same manner as the blade 3 described above, and the distance between the inner ends 7p between the blades 7 is increased. Thus, it functions as a guide portion that increases the amount of the projection material guided between the rotating blades 7.
- the blade 7 has substantially the same configuration as the blade 3 except that the projection back surface 7q does not have a raised portion or a configuration associated therewith.
- the projection rear surface 7q is formed in a curved shape (curved shape having no bent portion) except for the taper forming portion 7u.
- the tapered forming portion 7u forms the above-described tapered end portion 7p together with the above-described first portion 7b.
- the taper forming portion 7u is formed in a planar shape here, but may be formed in a curved shape, that is, may be formed to be a part of the curved surface formed on the projection back surface 7q.
- the blade 7 configured as described above and the centrifugal projector 1 using the blade 7 can concentrate the projection pattern of the projection material, and can increase the projection efficiency for a narrow projection range. Further, the blade 7 has an effect obtained from the configuration of the portion having the same configuration as the blade 3.
- the effects of the blades 3 and 7 themselves as described above can be exhibited even when other parts such as a side plate unit, a distributor, and a control cage have a configuration other than that described above.
- the side plates used together with the blades 3 and 7 are not limited to the pair of side plates described above, and may be a single side plate, for example.
- control cage 21 described above has, for example, a rectangular opening window 21a as shown in FIG.
- the control cage used for the centrifugal projector 1 is not limited to this.
- the control cage used for the centrifugal projector 1 may have, for example, two or more opening windows selected from square or triangular opening windows. In addition, it has two or more opening windows selected from square or triangular opening windows, and has one opening window integrated by partially overlapping all or part of these opening windows. It may be.
- examples of the square include a rectangle (rectangle or square) or a parallelogram.
- the control cage 41 shown in FIG. 12B can also be used as the control cage for the centrifugal projector 1.
- the control cage 41 shown in FIG. 12 (b) has two square opening windows 41a and 41b. Since the control cage 41 has the same configuration as the control cage 21 described above except for the configuration of the opening window, a detailed description thereof will be omitted.
- FIG. 12B is an example of a control cage that can be used simultaneously with the blades 3 and 7 to obtain a synergistic effect.
- release process from the control cage mentioned above is supplied in the state in which the projection material had a phase difference from each of the opening windows 41a and 41b. This makes it possible to synthesize projection patterns, to allow uniform processing of the workpieces, and to reduce the total projection amount necessary for processing.
- the phase difference in the opening window of the control gauge will be described in detail.
- the projection material is continuously released from the opening window of the control cage.
- FIG. 12B when two opening windows 41a and 41b are provided in the control cage 41 and the positions in the circumferential direction are deviated, the respective projections are deviated. become. That is, since the positions of the opening windows 41a and 41b are shifted in the circumferential direction, the projection material that has exited from the first opening window 41a and the projection material that has exited from the second opening window 41b are supplied to the blade. Deviation occurs at the position to be moved. This projection deviation becomes a phase difference, and as a result, a projection pattern is synthesized. That is, in the shot dispersion release process in the centrifugal projection method when the control cage 41 is used, the projection material is emitted from the two opening windows, thereby generating a phase difference (projection deviation) in the dispersion emission material.
- the pattern synthesis by the control cage 41 can be performed by blades other than the blades 3 and 7.
- the opening window is often square.
- supplying the projection material with a phase difference from the control cage itself can be realized by changing the shape of the opening window.
- the shape of the opening window of the control cage is rectangular (rectangular or square) can be considered.
- control cage 41 is compatible with the blades 3 and 7 that can concentrate and narrow the projection pattern. That is, the control cage 41 can increase the projection amount in the entire range of the product to be processed by synthesizing the projection patterns concentrated by the blades 3 and 7.
- a projection pattern matched to a product to be processed can be formed by combining the above-described blades 3 and 7 and pattern synthesis by the control cage 41 or the like. Specifically, after concentrating the projection pattern by collecting the projection material on the blade, it is possible to arbitrarily set the projection pattern by the technique of synthesizing the distribution of the control cage 41, etc. The proportion of the projection material that does not hit can be reduced.
- the centrifugal projector 1 having the control cage 41 increases the projection efficiency and realizes a reduction in the total projection amount necessary for product processing. That is, for example, even if the acceleration efficiency of the projection material is improved, if the ratio of the projection material that does not hit the product among the projected projection materials or the ratio of the projection material that hits the product more than necessary, the total projection amount increases. Therefore, it cannot be said that the efficiency for performing the target processing increases so much. Depending on the product, only about 1/5 of the projected projection material contributed to the processing of the product. The centrifugal projector 1 having the blades 3 and 7 and the control cage 41 for improving them has a dramatic effect.
- FIG. 13 is a diagram showing what percentage of the projected projection material is projected on which part of the product (processed product). It can be said that FIG. 13 shows a projection pattern for a product.
- the horizontal axis indicates the projection position of the product.
- the vertical axis indicates the projection ratio, and indicates the percentage of the whole.
- E3 indicates the result of the comparative example.
- the comparative example is a result of using the conventional blade as described above, that is, a blade having a projection surface having a substantially flat surface (surface on the plane P1) and a control cage having one opening window.
- E1 shows the result of Experimental Example 1.
- the experimental example 1 is a result of using the blade 3 shown in FIGS. 10 and 11 and a control cage (for example, FIG. 12A) having one opening window.
- E2 shows the result of Experimental Example 2.
- the result is obtained using a blade 3 and a control cage (for example, FIG. 12B) having two open windows.
- E1, E2, and E3 indicate experimental results.
- W1 indicates the range of the product (processed product), that is, the projection range of the product.
- Ra3 indicates the lowest projection ratio within the range of the processed product of the comparative example.
- Ra1 indicates the lowest projection ratio within the range of the processed product of Experimental Example 1.
- Ra2 indicates the lowest projection ratio within the range of the processed product of Experimental Example 2.
- the projection pattern of Experimental Example 1 has a higher maximum projection ratio, while the ratio of other portions is lower than the projection pattern of the comparative example, and the projection is concentrated. I can confirm that.
- the control cage having a plurality of opening windows and the blades 3 and 7 enabling the concentration of the projection pattern described above are very compatible. If the control cage and the blades 3 and 7 are capable of synthesizing such projection patterns, the projection pattern of the projection material is concentrated and adjusted so as to be a projection pattern suitable for the workpiece. To improve projection efficiency. That is, it is possible to reduce the projection material that does not hit the processing unevenness or the product to be processed, and to reduce the total projection amount of the projection material.
- the necessary projection amount is determined for each product under the set processing conditions.
- the quality of the processing surface is uniform and no unnecessary projection occurs.
- the projection pattern is not uniform, the projection density differs depending on the location of the product, resulting in processing unevenness.
- the centrifugal projector 1 including the blades 3 and 7 and the control cage 41 and the centrifugal projection method using the same, the projection efficiency can be increased.
- FIG. 12 a modified example of the control cage used in the centrifugal projector 1 according to the embodiment of the present invention and the operation effect by changing the control cage will be described. That is, a control cage that can be used simultaneously with the blades 3 and 7 to obtain a synergistic effect is described in, for example, FIGS. 12 (c) to 12 (f) in addition to the above-described FIGS. 12 (a) and 12 (b).
- Control cages 42, 43, 44, and 45 may be used.
- the control cages 42 to 45 will be described. Since the configuration is the same as that of the control cage 21 described above except for the configuration of the opening window, a detailed description thereof will be omitted.
- the control cage 42 shown in FIG. 12C has one opening window 42x integrated by partially overlapping two rectangular opening windows.
- the open window 42x has rectangular portions 42a and 42b constituting the window.
- the rectangular portions 42a and 42b are assumed to have the same size as the opening windows 41a and 41b.
- the control cage 43 shown in FIG. 12D has a parallelogram opening window 43a.
- control cage 44 shown in FIG. 12 (e) is a rectangular and parallelogram opening window and has three opening windows and is integrated by partially overlapping these opening windows. There are two open windows 44x.
- the opening window 44x has a rectangular portion 44a, a parallelogram portion 44b, and a rectangular portion 44c constituting the window, and are integrated so as to be positioned in this order.
- the control cage 45 shown in FIG. 12 (f) has five rectangular opening windows and has an opening window 45x integrated by partially overlapping these opening windows.
- the opening window 45x includes a rectangular portion 45a constituting the window, a rectangular portion 45e, and narrow rectangular portions 45b, 45c, and 45d positioned therebetween.
- the sizes of the rectangular portions 45a and 45e are, for example, approximately the same size as the rectangular portions 44a and 44c.
- the position and size of the combined region of the rectangular portions 45b, 45c, and 45d are substantially the same as the position and size of the parallelogram portion 44b, for example.
- FIG. 12 (a) to 12 (f) are side views of the cylindrical control cage (showing an opening window provided on the side surface), and FIGS. 12 (g) to 12 (n). 12 (a) to FIG. 12 (f) when the rotation direction of the blades and the like when viewed from the left side (introducing cylinder side) of the control cage is indicated by an arrow in FIG. The state in which the blade passing through the window rotates from bottom to top on the paper surface of FIG.
- the region through which the projection material passes when the control cage 21 of FIG. 12A is used is indicated by B0 in FIG. 12G, and the region corresponding to the treated surface of the projection material is shown in FIG.
- the projection pattern (distribution) is indicated by BL0 in FIG. 12 (g).
- the “region hitting the surface to be processed of the projection material” means “region hitting the projection material” when it is assumed that the processing surface is on a plane substantially orthogonal to the projection direction of the projection material.
- An opening window 21a shown in FIG. 12A is generally used.
- the region through which the projection material passes when the control cage 43 in FIG. 12D is used is indicated by B3 in FIG. 12K, and the region on the treated surface of the projection material is BA3 in FIG.
- the projection pattern (distribution) is indicated by BL3 in FIG.
- the opening window 43a shown in FIG. 12D is a parallelogram, and the timing at which the projection material is supplied from the control cage 43 to the blade is shifted in the blade width direction, so that the projection pattern becomes gentle. . Since the processing time of the product to be processed becomes longer in inverse proportion to the lowest projection ratio, depending on the shape of the product, it becomes more advantageous than the case of FIG.
- control cage 43 has a parallelogram opening window 43a, and the parallelogram of the opening window 43a is formed such that opposite sides formed in the circumferential direction are positioned in the circumferential direction and the rotation axis.
- the parallelogram By shifting the position in the direction parallel to the parallelogram, the parallelogram having the relationship of being obliquely aligned in the positional relationship (the positional relationship of FIG. can get.
- This configuration has the effect of increasing the projection efficiency with respect to the product when used together with the centralized performance of the blades 3 and 7.
- a triangular opening window may be provided, or a triangular opening window may be combined with a square opening window, or a part of the opening window may be integrated. You may make it provide in a cage.
- Regions through which the projection material passes when the control cages 41 and 42 in FIGS. 12B and 12C are used are indicated by B1a, B1x, and B1b in FIG. 12I and hit the treated surface of the projection material.
- the area is indicated by BA1a, BA1x, and BA1b in FIG. 12 (j), and the projection pattern (distribution) is indicated by BL1x in FIG. 12 (i).
- the area B1a, the projection pattern BL1a, and the area BA1a correspond to the opening window 41a (rectangular portion 42a).
- the area B1b, the projection pattern BL1b, and the area BA1b correspond to the opening window 41b (rectangular portion 42b).
- An overlapping part of the regions B1a and B1b is a region B1x.
- An overlapping portion of the areas BA1a and BA1b is an area BA1x.
- a combination of the projection patterns BL1a and BL1b (added together) is the projection pattern BL1x, which can be said to be a projection pattern when the control cages 41 and 42 are used.
- the projection pattern is synthesized by combining the projection patterns. Can be adjusted to a desired state. Since the processing time of the product to be processed becomes longer in inverse proportion to the lowest projection ratio, depending on the shape of the product, it becomes more advantageous than in the case of FIGS.
- control cages 41 and 42 have two rectangular opening windows 41a and 41b, or two rectangular opening windows (rectangular portions 42a and 42b), and these are partially overlapped so as to be integrated.
- One open window 42x is formed.
- the two rectangles (opening windows 41a and 41b) (rectangular portions 42a and 42b) are positions that can be seen on the side surfaces of the control cages 41 and 42 by shifting the positions in the circumferential direction and in the direction parallel to the rotation axis.
- An appropriate projection pattern is obtained by arranging diagonally in the relationship (the positional relationship in FIGS. 12B and 12C). This configuration has the effect of increasing the projection efficiency with respect to the product when used together with the centralized performance of the blades 3 and 7.
- Regions through which the projection material passes when the control cages 44 and 45 in FIGS. 12E and 12F are used are indicated by B4a, B4x, and B4c in FIG. 12M and hit the treated surface of the projection material.
- the area is indicated by BA4a, BA4x, and BA4c in FIG. 12 (n), and the projection pattern (distribution) is indicated by BL4x in FIG. 12 (m).
- the region B4a, the projection pattern BL4a, and the region BA4a correspond to the opening window 44a (rectangular portion 45a).
- the region B4c, the projection pattern BL4c, and the region BA4c correspond to the opening window 44c (rectangular portion 45e).
- the projection pattern BL4x is a combination of the projection patterns BL4a and BL4c (added together), and can be said to be a projection pattern when the control cages 44 and 45 are used.
- the projection pattern can be adjusted to a desired state by synthesizing the projection pattern.
- the projection pattern BL1x described with reference to FIG. 12 (i)
- the projection pattern BL1x is M-shaped, that is, the portion between the two peaks is in a state where the projection ratio is slightly small.
- the rectangular portions 44a and 44c (rectangular portions 45a and 45e) corresponding to the opening windows 41a and 41b (rectangular portions 42a and 42b) in FIGS. In the case of FIG.
- a quadrilateral portion 44 b is provided, and by providing a plurality of rectangular portions 45 b, 45 c, 45 d, adjustment can be made to increase the projection ratio of the portion between the two peaks. Since the processing time of the product to be processed becomes longer in inverse proportion to the lowest projection ratio, depending on the shape of the product, it becomes more advantageous than the case of FIG. 12 (a) to FIG. 12 (d). Further, it is possible to obtain a projection pattern that can reduce processing unevenness as much as possible.
- the control cage 44 has one open window 44x integrated by overlapping three squares (parts 44a, 44b, 44c) partially.
- This opening window 44x has a relationship in which the position in the circumferential direction and the position in the direction parallel to the rotation axis are shifted, so that the opening window 44x is obliquely aligned in the positional relationship (the positional relationship in FIG. 12E) visible on the side surface of the control cage 44.
- the first rectangular part (44a) and the second rectangular part (44c) having the first rectangular part (44a) and the second rectangular part (44c) are provided between the first rectangular part (44a) and the second rectangular part (44c).
- a parallelogram portion 44b With this configuration, an appropriate projection pattern (desired projection pattern) can be obtained.
- This configuration has the effect of increasing the projection efficiency with respect to the product when used together with the centralized performance of the blades 3 and 7.
- control cage 45 is a single opening that is integrated by partially overlapping five squares (which are described as having the portions 45a to 45e, but having four or more have the same effect). It has a window 45x.
- the opening windows 45x have a relationship in which they are arranged obliquely in the positional relationship (the positional relationship in FIG. 12 (f)) visible on the side surface of the control cage 45 by shifting the position in the circumferential direction and the position parallel to the rotation axis.
- the first rectangular portion (45a) and the second rectangular portion (45e), and the first rectangular portion (45a) and the second rectangular portion (45e) are provided between the first rectangular portion (45a) and the second rectangular portion (45e).
- a control cage having an aperture window can adjust the projection pattern. That is, such a control cage can produce a synergistic effect with the blades 3 and 7 for concentrating the projection pattern, that is, can increase the projection amount in the entire range of the workpiece. Then, the projection efficiency of the projection material is increased by reducing the processing unevenness of the product and the ratio of the projection material not hitting the product.
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Abstract
Description
このように構成された本発明においては、ブレードがその半径方向外側がその半径方向内側に比べて回転方向の後側に位置するように傾斜して形成されているので、投射材を集中させることができる。さらに、本発明においては、コントロールケージが、四角若しくは三角の2以上の開口窓を有し、又は、四角若しくは三角の2以上の開口窓の全部若しくは一部がそれぞれ重なって一体化された1つの開口窓を有するので、被処理品に適した投射パターンになるよう調整することができ、投射効率を高めることができるので、処理ムラや被処理品に当たらない投射材を低減し、投射材の総投射量を低減することができる。 In order to achieve the above object, the present invention is a centrifugal projector that projects a projection material toward an article to be processed, and includes a side plate, a plurality of blades attached to the side plate, and a radially inner side of the side plate. A control gauge that discharges the projection material between the blades through the opening, a distributor that is provided inside the control gauge in the radial direction, supplies the control material to the control gauge by stirring, a side plate, and a plurality of side plates. And a rotating shaft for rotating the distributor, and the blade is formed so as to be inclined such that its radially outer side is located on the rear side of the rotating direction compared to its radially inner side, The control cage has two or more square or triangular opening windows, or all or a part of two or more square or triangular opening windows overlap each other. With an integrated one opening windows was Te.
In the present invention configured as described above, the blade is formed so as to be inclined so that the outer side in the radial direction is located on the rear side in the rotational direction as compared with the inner side in the radial direction. Can do. Further, in the present invention, the control cage has two or more square or triangular opening windows, or all or a part of two or more square or triangular opening windows are overlapped and integrated. Since it has an aperture window, it can be adjusted to a projection pattern suitable for the product to be processed, and the projection efficiency can be increased, so that the projection material that does not hit the processing unevenness and the product to be processed can be reduced. The total projection amount can be reduced.
Claims (14)
- 投射材を被処理品に向けて投射する遠心投射機であって。
側板と、
この側板に取り付けられた複数のブレードと、
前記側板の半径方向内側に設けられ、その開口部から投射材を前記ブレード間に放出するコントロールゲージと、
このコントロールゲージの半径方向内側に設けられ、投射材を掻き混ぜて前記コントロールゲージに供給するティストリビュータと、
前記側板、複数のブレード、及び、ディストリビュータを回転させる回転軸と、を有し、
前記ブレードは、その半径方向外側がその半径方向内側に比べて回転方向の後側に位置するように傾斜して形成されており、
前記コントロールケージは、四角若しくは三角の2以上の開口窓を有し、又は、四角若しくは三角の2以上の開口窓の全部若しくは一部がそれぞれ重なって一体化された1つの開口窓を有する、遠心投射機。 A centrifugal projector that projects a projection material toward a workpiece.
Side plates,
A plurality of blades attached to this side plate;
A control gauge that is provided on the radially inner side of the side plate and discharges the projection material between the blades from the opening;
A distributor that is provided on the radially inner side of the control gauge, stirs the projection material and supplies the control gauge to the control gauge,
A rotating shaft that rotates the side plate, the plurality of blades, and the distributor;
The blade is formed so as to be inclined such that the outer side in the radial direction is located on the rear side in the rotational direction as compared with the inner side in the radial direction.
The control cage has two or more square or triangular opening windows, or a single opening window in which all or part of two or more square or triangular opening windows are overlapped and integrated. Projector. - 前記コントロールゲージにおける開口窓は、矩形又は平行四辺形の四角の開口窓から選択される請求項1記載の遠心投射機。 The centrifugal projector according to claim 1, wherein the opening window in the control gauge is selected from rectangular or parallelogram square opening windows.
- 前記ブレードは、投射材を投射するための投射面を備え、この投射面は、半径方向内側の第1部分と、半径方向外側の第2部分を有し、前記第1部分は、その半径方向外側がその半径方向内側に比べて回転方向の後側に位置するように傾斜して形成され、前記第2部分は、前記第1部分を半径方向外側に延長した仮想線より回転方向の前側に位置するように形成されている請求項2記載の遠心投射機。 The blade includes a projection surface for projecting a projection material, and the projection surface has a first portion on the radially inner side and a second portion on the radially outer side, and the first portion is in the radial direction. The second portion is formed on the front side in the rotational direction with respect to an imaginary line that extends the first portion radially outward compared to the radially inner side. The centrifugal projector according to claim 2, wherein the centrifugal projector is formed to be positioned.
- 前記ブレードは、投射材を投射する前記投射面が形成されたブレード投射部と、このブレード投射部の両端縁部にブレード投射部より厚みが大きく形成され且つブレード投射部と一体に設けられた取付部と、を有し、
前記ブレードの取付部は、少なくともその外側部分の、前記ブレードの回転軸方向に直交する平面が、ストレート形状に形成されている請求項3記載の遠心投射機。 The blade has a blade projection part on which the projection surface for projecting the projection material is formed, and an attachment that is formed thicker than the blade projection part at both ends of the blade projection part and is provided integrally with the blade projection part And
The centrifugal projector according to claim 3, wherein the attachment portion of the blade has a straight shape at least in a plane perpendicular to the rotation axis direction of the blade at an outer portion thereof. - 前記ブレードの第2部分は、前記ブレードの回転中心と前記第2部分の半径方向外側端部とを結ぶ仮想線が法線と一致するように形成されている請求項4記載の遠心投射機。 The centrifugal projector according to claim 4, wherein the second part of the blade is formed such that an imaginary line connecting a rotation center of the blade and a radially outer end of the second part coincides with a normal line.
- 前記ブレードのブレード投射部の半径方向内側の端部は、半径方向内側に向けて先細り状に形成され、各ブレード間の半径方向内側の端部間が、回転する各ブレード間に投射材を導くガイド部となる請求項5記載の遠心投射機。 The radially inner end of the blade projecting portion of the blade is tapered toward the radially inner side, and the projecting material is guided between the rotating blades between the radially inner ends between the blades. The centrifugal projector according to claim 5, which serves as a guide portion.
- 前記ブレードの取付部は、その半径方向内側部分の前記ブレードの回転軸方向に直交する平面が前記ストレート形状から突出するように形成される係合部を有する請求項3記載の遠心投射機。 4. The centrifugal projector according to claim 3, wherein the attachment portion of the blade has an engagement portion formed so that a plane perpendicular to the rotation axis direction of the blade in the radially inner portion protrudes from the straight shape.
- 前記ブレードのブレード投射部は、前記投射面の反対側の投射背面に形成された隆起部と、この隆起部及び前記半径方向内側の端部の間に形成された湾曲面とを有する請求項1乃至7の何れか1項に記載の遠心投射機。 The blade projection part of the said blade has the protruding part formed in the projection back surface on the opposite side to the said projection surface, and the curved surface formed between this protruding part and the edge part inside the said radial direction. The centrifugal projector of any one of thru | or 7.
- 前記コントロールケージには、前記回転軸の側と反対側から前記ディストリビュータを挿入可能な挿入用開口部が設けられるとともに、前記回転軸の側に前記ディストリビュータの半径方向外側部分をカバーするカバー部が設けられ、
さらに、前記コントロールケージの前記回転軸の側と反対側に位置し投射材を前記ディストリビュータに供給する導入部と、前記ディストリビュータが前記コントロールケージの半径方向内側に配置された後に、前記導入部及び前記コントロールケージの間に固定され、それにより、前記導入部及び前記コントロールケージの間の隙間を塞いで投射材がこの隙間から外部に放出されることを防止する補助ブラケットと、を有する請求項1記載の遠心投射機。 The control cage is provided with an insertion opening through which the distributor can be inserted from the side opposite to the rotating shaft side, and a cover portion that covers the radially outer portion of the distributor on the rotating shaft side. And
Furthermore, an introduction portion that is located on the opposite side of the control cage from the rotary shaft side and supplies a projection material to the distributor, and after the distributor is disposed radially inside the control cage, the introduction portion and the 2. An auxiliary bracket fixed between the control cages, thereby closing a gap between the introduction portion and the control cage and preventing the projection material from being discharged from the gap to the outside. Centrifugal projector. - 前記コントロールケージは、2つの長方形の開口窓を有し、又は、2つの長方形の開口窓が部分的に重なって一体化された1つの開口窓を有し、前記2つの長方形は、コントロールゲージの円周方向及び軸方向において位置がずれており、前記コントロールゲージの側面から見て斜めに並んでいる請求項3記載の遠心投射機。 The control cage has two rectangular opening windows, or one opening window in which the two rectangular opening windows are partially overlapped and integrated, and the two rectangles are connected to the control gauge. The centrifugal projector according to claim 3, wherein positions are shifted in a circumferential direction and an axial direction, and are arranged obliquely when viewed from a side surface of the control gauge.
- 前記コントロールゲージは、3つの四角が部分的に重なって一体化された1つの開口窓を有し、
前記開口窓は、コントロールゲージの円周方向及び軸方向において位置がずれており、前記コントロールケージの側面から見て斜めに並ぶ第1長方形部分と、第2長方形部分と、これらの第1長方形部分と第2長方形部分との間に設けられた平行四辺形部分と、を有する請求項3記載の遠心投射機。 The control gauge has one opening window in which three squares are partially overlapped and integrated,
The opening window is displaced in the circumferential direction and the axial direction of the control gauge, and the first rectangular portion, the second rectangular portion, and the first rectangular portion that are arranged obliquely when viewed from the side surface of the control cage. And a parallelogram portion provided between the first rectangular portion and the second rectangular portion. - 前記コントロールケージは、4つ以上の四角が部分的に重なって一体化された1つの開口窓を有し、
前記開口窓は、コントロールゲージの円周方向及び軸方向において位置がずれており、前記コントロールケージの側面から見て斜めに並ぶ第1長方形部分と、第2長方形部分と、これらの第1長方形部分と第2長方形部分との間に設けられた複数の長方形部分からなる長方形部分群と、を有し、
これらの長方形部分群を構成する長方形部分は、その軸方向の長さが前記第1長方形部分及び前記第2長方形部分よりも短くなるように形成されている請求項3記載の遠心投射機。 The control cage has one opening window in which four or more squares are partially overlapped and integrated,
The opening window is displaced in the circumferential direction and the axial direction of the control gauge, and the first rectangular portion, the second rectangular portion, and the first rectangular portion that are arranged obliquely when viewed from the side surface of the control cage. And a rectangular portion group composed of a plurality of rectangular portions provided between the first rectangular portion and the second rectangular portion,
4. The centrifugal projector according to claim 3, wherein the rectangular portions constituting the rectangular portion group are formed such that an axial length thereof is shorter than the first rectangular portion and the second rectangular portion. - 投射材を被処理品に向けて投射する遠心投射機であって。
側板と、
この側板に取り付けられた複数のブレードと、
前記側板の半径方向内側に設けられ、その開口部から投射材を前記ブレード間に放出するコントロールゲージと、
このコントロールゲージの半径方向内側に設けられ、投射材を掻き混ぜて前記コントロールゲージに供給するティストリビュータと、
前記側板、複数のブレード、及び、ディストリビュータを回転させる回転軸と、を有し、
前記ブレードは、その半径方向外側がその半径方向内側に比べて回転方向の後側に位置するように傾斜して形成されており、
前記コントロールケージは、平行四辺形の開口窓を有し、この開口窓の平行四辺形は、円周方向に形成された互いに対向する辺が、円周方向及び軸方向の位置がずれており、前記コントロールケージの側面から見て斜めに並ぶ平行四辺形である、遠心投射機。 A centrifugal projector that projects a projection material toward a workpiece.
Side plates,
A plurality of blades attached to this side plate;
A control gauge that is provided on the radially inner side of the side plate and discharges the projection material between the blades from the opening;
A distributor that is provided on the radially inner side of the control gauge, stirs the projection material and supplies the control gauge to the control gauge,
A rotating shaft that rotates the side plate, the plurality of blades, and the distributor;
The blade is formed so as to be inclined such that the outer side in the radial direction is located on the rear side in the rotational direction as compared with the inner side in the radial direction.
The control cage has a parallelogram opening window, and the parallelogram of the opening window has mutually opposite sides formed in the circumferential direction shifted in the circumferential direction and the axial direction, A centrifugal projector, which is a parallelogram arranged obliquely when viewed from the side of the control cage. - 前記ブレードは、投射材を投射するための投射面を備え、この投射面は、半径方向内側の第1部分と、半径方向外側の第2部分を有し、前記第1部分は、その半径方向外側がその半径方向内側に比べて回転方向の後側に位置するように傾斜して形成され、前記第2部分は、前記第1部分を半径方向外側に延長した仮想線より回転方向の前側に位置するように形成されている請求項13記載の遠心投射機。 The blade includes a projection surface for projecting a projection material, and the projection surface has a first portion on the radially inner side and a second portion on the radially outer side, and the first portion is in the radial direction. The second portion is formed on the front side in the rotational direction with respect to an imaginary line that extends the first portion radially outward compared to the radially inner side. The centrifugal projector according to claim 13, which is formed so as to be positioned.
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KR1020167013863A KR102179401B1 (en) | 2013-10-31 | 2014-09-26 | Centrifugal projector |
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JP2015544875A JP6315413B2 (en) | 2013-10-31 | 2014-09-26 | Centrifugal projector |
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- 2014-09-26 KR KR1020167013863A patent/KR102179401B1/en active IP Right Grant
- 2014-09-26 US US15/032,876 patent/US10071463B2/en active Active
- 2014-09-26 CN CN201811511941.6A patent/CN109894987B/en active Active
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TW201529236A (en) | 2015-08-01 |
KR20160077142A (en) | 2016-07-01 |
CN109894987B (en) | 2021-01-01 |
US10850367B2 (en) | 2020-12-01 |
JP2018118379A (en) | 2018-08-02 |
EP3064318A1 (en) | 2016-09-07 |
JPWO2015064263A1 (en) | 2017-03-09 |
EP3064318A4 (en) | 2017-05-31 |
CN105873727B (en) | 2018-12-28 |
KR102179401B1 (en) | 2020-11-16 |
US10071463B2 (en) | 2018-09-11 |
JP6555653B2 (en) | 2019-08-07 |
TWI642518B (en) | 2018-12-01 |
JP6315413B2 (en) | 2018-04-25 |
CN109894987A (en) | 2019-06-18 |
US20190009386A1 (en) | 2019-01-10 |
EP3064318B1 (en) | 2018-08-29 |
US20160236324A1 (en) | 2016-08-18 |
CN105873727A (en) | 2016-08-17 |
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